1 ensors have the potential to converge on the
technological achievements of semiconductor microfabrica
2 The cultural and
technological achievements of the human species depend o
3 Recent years have witnessed another
technological advance, wherein these two powerful modali
4 cessing the large data sets afforded by this
technological advancement, and are unsuitable for proces
5 Despite recent
technological advancements and promising preclinical exp
6 Novel
technological advancements have made this percutaneous m
7 Over the past 2 decades,
technological advancements have resulted in the emergenc
8 Technological advancements in fields such as molecular g
9 In this review we discuss the
technological advancements in mass spectrometry-based pr
10 This review focusses on the emerging
technological advancements in monitoring of livestock he
11 ed use of central venous catheters and other
technological advancements involved in the care of ill c
12 ased understanding of tumour immune biology,
technological advancements of gene transfer and cell cul
13 -guided clinical trials, are fueling further
technological advancements of NGS technology.
14 Systems immunology leverages recent
technological advancements that enable broad profiling o
15 With recent
technological advances (e.g., geochemistry, genomic appr
16 in a holistic manner, highlighting enabling
technological advances affecting nearly every aspect of
17 Technological advances allow patients to participate in
18 Despite these complex challenges,
technological advances and innovations in planning and p
19 m space, providing a pathway only limited by
technological advances and not by methodology.
20 rgies from meV to 1 keV can lead to numerous
technological advances and to an intriguing possibilitie
21 Rapid
technological advances are helping to close this gap, re
22 Massive
technological advances enabled high-throughput measureme
23 Recent
technological advances have allowed us to focus on antih
24 Technological advances have changed the practice of clin
25 Recent
technological advances have enabled DNA methylation to b
26 Recent
technological advances have enabled genome-wide associat
27 Recent
technological advances have improved analysis of this co
28 Technological advances have now allowed researchers to c
29 Recent
technological advances have opened unprecedented opportu
30 el of its underlying genetic code, and rapid
technological advances have propelled this field to the
31 Technological advances have the potential to dramaticall
32 t have not kept up with rapid scientific and
technological advances in biodiscovery.
33 Despite recent
technological advances in FT-IR microscopy, sample throu
34 r Mendelian disorders were first discovered,
technological advances in genetic analysis have made fin
35 Despite recent
technological advances in glycan analysis, structural el
36 Recent
technological advances in lineage tracing allow us for t
37 Technological advances in mapping and tracing the oxidiz
38 Recent
technological advances in mass spectrometry, development
39 We advocate that
technological advances in next-generation sequencing of
40 Technological advances in profiling cells along genetic,
41 onizing the way we study forests, and recent
technological advances mean we are now able - for the fi
42 Technological advances needed to fully exploit the large
43 Recent
technological advances now allow us to study freely roam
44 With the
technological advances of the past decades, novel and mo
45 lf of all living vertebrates, scientific and
technological advances on the Gnih system in fish are sc
46 itially developed as large external devices,
technological advances resulted in miniaturization of el
47 transcriptome began in the early 1990s, and
technological advances since the late 1990s have made tr
48 This revolution has been sparked by
technological advances that enable capture of images tha
49 data-driven medicine has been set by recent
technological advances that enable the assessment and ma
50 example, metabolism) was not possible until
technological advances that occurred 60 years later.
51 isease (GERD) and to compare the most recent
technological advances to the existing guidelines.
52 Further
technological advances will establish NMR as the primary
53 With increasing
technological advances, direct linkages within the neura
54 Despite recent
technological advances, intrinsic noise and high sequenc
55 of newly acquired knowledge in the field and
technological advances, it is expected that mechanisms u
56 Recent
technological advances, open access data libraries, and
57 now being realized through the use of recent
technological advances, such as the ability to map conne
58 However, despite numerous
technological advances, surgery still relies primarily o
59 Despite decades of
technological advances, the optimal ventricular pacing s
60 Taking advantage of recent
technological advances, we developed and validated low-c
61 new opportunities, problems to be solved and
technological advances.
62 e are not anticipated to undergo change with
technological advances.
63 The use of
technological aids to improve sport performance ('techno
64 to improve radiotherapy delivery beyond just
technological and anatomical precision.
65 Europe will be asked about a variety of new
technological and behavioral initiatives intended to mit
66 roup 123 components, including key-odorants,
technological and botanical tracers, were mapped.
67 Technological and conceptual advances in both basic and
68 The last decade has seen dramatic
technological and conceptual changes in research on epis
69 Platinum-group metals (PGMs) are
technological and economic enablers of many industrial p
70 Recent
technological and informatics advances have led to unpre
71 iation is of great importance to a number of
technological and medical applications.
72 Several
technological and methodological limitations in obesity
73 to improve on the basis of numerous ongoing
technological and microbiological studies.
74 hestnut flour was investigated for improving
technological and nutritional quality of gluten-free bre
75 place up to 50% of fat without affecting the
technological and physical characteristics.
76 This research assesses climate,
technological,
and policy impacts on consumptive water u
77 udes the major dynamic models of biological,
technological,
and social processes.
78 cles are being developed for a wide range of
technological applications and basic research.
79 Such materials have found many
technological applications and provide a useful model sy
80 uli-responsive, nanostructured materials for
technological applications at physiological temperatures
81 describe key adherence factors, methods, and
technological applications for simplifying regimens and
82 priate materials for fundamental physics and
technological applications is an experimental challenge.
83 ure application of low-frequency AC iDEP for
technological applications of SWNTs.
84 Finally, we present recent
technological applications of this moonlighting protein.
85 n science fiction movies, but finds numerous
technological applications ranging from additive manufac
86 ricating microscale devices for a variety of
technological applications requiring reliable actuation
87 on and basic biomedical research, as well as
technological applications such as icing of aircraft win
88 ied for MOF-enabled device functionality and
technological applications that arise from their fascina
89 PR and its function, and discuss the related
technological applications that have emerged, with a foc
90 open the possibility of optimise alternative
technological applications to traditional grape macerati
91 attracting increasing attention for various
technological applications, especially the superhydropho
92 etween water and oxides is critical for many
technological applications, including energy storage, su
93 e composites also hold a great potential for
technological applications, ranging from information dis
94 netic systems, and its determination in many
technological applications, such as recording media, is
95 is central to many biological processes and
technological applications, such as the harvesting of so
96 Although these systems are promising for
technological applications, they also present conceptual
97 surfaces, and have been used in a variety of
technological applications.
98 ous metal oxides are central to a variety of
technological applications.
99 aphene membranes holds promising in numerous
technological applications.
100 roperties and for designing bulk magnets for
technological applications.
101 ics that promises racetrack memory and other
technological applications.
102 tools for scientific research and enable new
technological applications.
103 ead to solitonic condensed matter phases and
technological applications.
104 s currently incorporated in many imaging and
technological applications.
105 ng condensed matter phenomena and developing
technological applications.
106 tructures occur widely in nature and inspire
technological applications.
107 e and exhibit excellent activity for nanobio-
technological applications.
108 aturization of detector size, with potential
technological applications.
109 e widespread application of ionic liquids in
technological applications.
110 hanism is thus crucial to defect physics and
technological applications.
111 for both fundamental scientific research and
technological applications.
112 ion of a plurality of properties required in
technological applications.
113 ed materials that has implications for broad
technological applications.
114 and, therefore, for improving their value in
technological applications.
115 modern materials produced intentionally for
technological applications.
116 asic biology of bacterial adaptation and its
technological applications.
117 e major challenge to their widespread use in
technological applications.
118 vices promises new opportunities for various
technological applications.
119 rmittivity are strongly demanded for various
technological applications.
120 This
technological approach may be useful to develop tools fo
121 rmoelectric device is attractive for diverse
technological areas such as cooling, power generation an
122 This is a major issue given the
technological as well as fundamental importance of f-blo
123 rfaces along with a balanced overview on the
technological aspects as well as benefits and shortcomin
124 ation of polar lipids in the nutritional and
technological aspects of milk is discussed.
125 g the detailed reconstruction of cultural or
technological aspects of shell midden formation, this al
126 ge of various social, cultural, economic and
technological aspects of shell midden formation, unknown
127 in catalytic transformations that lower the
technological barriers for developing more sustainable r
128 his approach of device assembly may form the
technological basis for highly efficient low-power analo
129 An important
technological bottleneck is the exposure time of the EBL
130 OCT has been a
technological breakthrough in the diagnosis, treatment,
131 ept of the rational design of NEs and recent
technological breakthroughs for the development of a new
132 Essentially,
technological breakthroughs have enabled researchers to
133 Recent
technological breakthroughs have made it possible to mea
134 Recent
technological breakthroughs, which have led to the manuf
135 As our
technological capacities improve, genomic testing is inc
136 rials at the nanoscale represents an ongoing
technological challenge for a variety of integrated freq
137 ed rechargeable batteries represents a major
technological challenge for this new century, as batteri
138 he face of errors is a major fundamental and
technological challenge.
139 ower to light is an important scientific and
technological challenge.
140 e outline the major scientific questions and
technological challenges that need to be addressed to br
141 erformed in resource-limited-settings due to
technological challenges, high-costs, and lack of traine
142 These findings suggest a strong link between
technological change and human mobility in Holocene West
143 Although
technological change and unequal consumption inextricabl
144 Metal recycling and
technological change will contribute to sustaining suppl
145 European prehistory of cultural, social, and
technological change.
146 ng to farming involved profound cultural and
technological changes.
147 tment have undergone profound scientific and
technological changes.
148 e optimized extract and the type of milk, on
technological characteristics of the obtained gels.
149 in cakes, producing a slight decrease in the
technological characteristics of the products.
150 e different thread types suggest intentional
technological choice.
151 the review were peer-reviewed proceedings of
technological conferences or articles published in techn
152 We also aim to raise awareness about the
technological considerations and the inherent flaws of t
153 aying climate action in the name of reducing
technological costs.
154 Technological deployment of organic photovoltaic modules
155 This insight may accelerate the
technological deployment of organic resistive memories.
156 ar-old children were able to copy cumulative
technological design and whether they could do so withou
157 and that some of them even copy, cumulative
technological design, and that - in line with some adult
158 National Council for Scientific and
Technological Development (CNPq).
159 The
technological development of LC-MS instrumentation has l
160 n elongation at this current, early stage of
technological development.
161 future directions, and an outlook for future
technological development.
162 With the recent
technological developments a vast amount of high-through
163 no treatment to improve vision is available,
technological developments aid these patients in their d
164 s as vaccine vectors, and how scientific and
technological developments during the 1970s and beyond s
165 We also highlight
technological developments in 2D IR that continue to exp
166 Furthermore, we discuss the
technological developments in blood-based biomarker disc
167 regarding important future applications and
technological developments of 2D vibrational surface spe
168 We furthermore consider important recent
technological developments of 2D vibrational surface spe
169 With recent
technological developments, these cells can be isolated
170 It also offers an opportunity to study the
technological differences between the Mousterian and the
171 Technological difficulties in assessing toxicity in deep
172 We assess the
technological diversity of these fluted stone points fou
173 network, and the patent network in different
technological domains.
174 and small, drawn from social, biological and
technological domains.
175 rch Statement are to discuss the scientific,
technological,
economic, and regulatory issues that dete
176 A range of
technological,
economic, communication and governance so
177 Considerable scientific and
technological efforts are currently being made towards t
178 The recent
technological evolution of reaction monitoring technique
179 ncy [3], marking a major transition in human
technological evolution.
180 logical and cognitive - that support primate
technological evolution.
181 se problem arises in numerous scientific and
technological fields.
182 Our work bridges the
technological gap between signal transduction, condition
183 Here, we bridge this
technological gap by integrating capillary microsampling
184 To bridge this
technological gap, we have developed a lab-on-a-chip cap
185 To address this
technological gap, we propose a simple method to align c
186 l type identification may not simply reflect
technological gaps in co-registering genetic, anatomical
187 catalytic processes has both fundamental and
technological implications for rational design of future
188 anding question that has both ecological and
technological implications, as biosonar systems continue
189 aps is of great interest because of both its
technological importance and open questions regarding th
190 Amorphous selenium, owing to its tremendous
technological importance and perhaps to its chemical sim
191 , visible, to infrared are of scientific and
technological importance for a wide range of application
192 in composite materials is of fundamental and
technological importance for realizing tunable energy ef
193 roperties via atomic structure changes is of
technological importance in information storage.
194 has been an active research because of their
technological importance in laser applications.
195 es and are therefore of great scientific and
technological importance in the context of electrochemic
196 The growing
technological importance of conducting polymers makes th
197 Technological importance of this pigment emerged from va
198 Despite its scientific and
technological importance, the interfacial structure of R
199 noscale ferroelectrics are of scientific and
technological importance.
200 r with cellulose are of both fundamental and
technological importance.
201 the last five decades, which offer paramount
technological importance.
202 results suggest demand-side and supply side
technological improvements and fuel choice could play an
203 Technological improvements in pulse generation and detec
204 tunities exist for chemical advancements and
technological improvements.
205 Finally, we describe opportunities for
technological innovation and ways to bridge existing kno
206 First,
technological innovation processes do not follow a set s
207 s Malthus's blindness to the implications of
technological innovation.
208 Transcriptomics has been defined by repeated
technological innovations that transform the field.
209 ising inequality including unequal access to
technological innovations, increased geographical segreg
210 d in order to overcome all the issues of the
technological integration.
211 hich have received considerable academic and
technological interest due to the combination of the ele
212 Recent advancements,
technological issues, advantages, and drawbacks involved
213 ing reimbursement, legal considerations, and
technological issues.
214 logical conferences or articles published in
technological journals.
215 atforms faces serious challenges at both the
technological level due to cost ineffectiveness, and the
216 ised biology over the past four decades, but
technological limitations have left many applications un
217 Originally driven by pushing
technological limits, it has become a tool of biological
218 We provide evidence that once
technological macaques reach a large enough group size,
219 Silicon is an extremely important
technological material, but its current industrial produ
220 Higher organisms as well as medical and
technological materials exploit mineral-polymer interact
221 MeJA application led to a delay in grape
technological maturity and a significant increase in the
222 Presently, the
technological methods are extremely energy- and cost-int
223 ization (100-300MPa) has great potential for
technological,
microbiological and nutritional aspects o
224 cious design of the linker has been an early
technological milestone.
225 ; d) diversity and equity considerations; e)
technological nature; f) economic and policy studies; an
226 orks contain more leader communities whereas
technological networks such as power grid network have m
227 tion relationship in biological, social, and
technological networks.
228 and develops the concept of a uniquely human
technological niche rooted in a shared primate heritage
229 ng wound condition, but as yet there are few
technological options available to the clinician.
230 mary and sage extracts represented promising
technological options for preserving muxama from oxidati
231 rrelation between impact - whether academic,
technological,
or scientific - and simple solutions, her
232 at which wine consumes oxygen are important
technological parameters for whose measurement there are
233 in levels may be influenced by modifying the
technological parameters of both whole grain and cocoa b
234 h as nutritional value, oxidative stability,
technological performance, quality, processing, safety a
235 downtown, next to the most highly performing
technological plateau.
236 Trapped ions are an excellent
technological platform for both quantum sensing and quan
237 Multiple
technological platforms have been developed for miRNA is
238 Here we will review the major
technological platforms with consideration given for the
239 In addition and
technological point of view, the incorporation of potato
240 This will provide
technological possibilities for the further study of mod
241 icity in diphenylalanine peptide expands its
technological potential as a smart material.
242 This work exemplifies the
technological potential of atomically thin lateral heter
243 devoted recently to making full use of this
technological potential, concrete realizations of workin
244 Their
technological potentials hinge critically on the ability
245 The impact of the
technological process on the r-betaLg structure and how
246 ilk and dairy products is done using various
technological processes with the aim of preserving micro
247 s are inferred in many important natural and
technological processes, but their mechanisms of assembl
248 s are ubiquitous in biological, chemical and
technological processes, homogenizing highly dissimilar
249 uld be valuable and advantageous for further
technological processes, such as 3D printing.
250 also relevant in biomedical, industrial and
technological processes.
251 t roles in naturally occurring phenomena and
technological processes.
252 may change after harvesting depending on the
technological processing and the storage conditions.
253 hindcasts with the model, which suggest that
technological progress can explain most of the 20th cent
254 contrast, projections extending this rate of
technological progress into the future under open access
255 In this article I discuss
technological progress over the past decade, which has,
256 Technological progress since the late twentieth century
257 generates two triplet excitons, holds great
technological promise.
258 ability of ultra-high-field imaging beyond a
technological proof of principle to investigate the inte
259 Proximate composition and specific
technological properties (pH, processing loss, texture)
260 n interesting combination of nutritional and
technological properties for food industry.
261 ition, enzymatic activities of extracts, and
technological properties of cheese curds.
262 m this, enzymatic activities of extracts and
technological properties of curds were assessed.
263 moval promoted no significant changes in the
technological properties of the flour, except for color.
264 According to
technological properties, it can be concluded that C. ca
265 ied on the aleurone-rich flour to modify the
technological properties.
266 omegranate juice was studied to evaluate its
technological properties.
267 ipated phenomena which may affect wheat bran
technological properties.
268 We also assess
technological prospects of chiral inorganic materials wi
269 e proteins in bacterial membranes for myriad
technological purposes.
270 roviding new perspectives for evaluating the
technological quality based on the low abundant proteins
271 light catalysis, a recent and very promising
technological refinement of this class of transformation
272 Au nanoclusters are of
technological relevance for catalysis, photonics, sensor
273 factor is a key "metric" for determining the
technological relevance of oxide-based anodic water elec
274 light with matter and a phenomenon of great
technological relevance.
275 This
technological revolution has also affected understanding
276 We are in the midst of a
technological revolution that is providing new insights
277 The next stage of this
technological revolution will be the development of acti
278 in which we have already witnessed multiple
technological revolutions and a growth in scale from a f
279 with distinct excitons provides a potential
technological route towards in situ control of nonlinear
280 so strongly dependent on the availability of
technological-
scale preparation methods, we will also ex
281 Besides their
technological significance, polymer-grafted nanoparticle
282 nce colours are of fundamental and potential
technological significance.
283 In today's increasingly
technological society, a workforce proficient in science
284 rmaceutical studies, to date no satisfactory
technological solutions are available for the automated,
285 Current
technological solutions are expensive and focused on tre
286 -loop resuscitation algorithms are promising
technological solutions for constrained environments and
287 rgical technique and targets, as well as the
technological state-of-the-art of conventional and incis
288 The sequence of the
technological steps, the deposition temperatures of the
289 Various social, financial, biological and
technological systems can be modeled by interdependent n
290 ay plays an important role in biological and
technological systems containing the pyrrole building bl
291 ons with useful doped materials coupled nano-
technological systems for environmental safety.
292 t to a variety of biological, artificial and
technological systems, but has been challenging to repro
293 Synchronization occurs in many natural and
technological systems, from cardiac pacemaker cells to c
294 s platform, while also representing a useful
technological tool for the control of liquid phase depos
295 iverse approaches requiring a broad range of
technological tools.
296 The
technological transfer from a classical batch system to
297 purification and thus facilitate a possible
technological transformation from the traditional energy
298 ed and reflect similar underlying social and
technological transformations.
299 (13th-17th centuries) and provenances narrow
technological variation has been found.
300 ciencies have a critical role in determining
technological viability and expectations for device prot